Research data supporting "Hierarchical chiral self-assembly of nanocylinders composed of sequence-defined mesogenic dimers"

Ostermann, Emily ; Chan, Chun Lam Clement ; Bendesky, Justin ; Votava, Jacob ; Reed, Eva Susan Manary ; Maguire, Shawn ; Webb, Michael ; Lee, Stephanie ; Kahr, Bart ; Davidson, Emily
Issue date: 2026
Rights:
MIT License (MIT) Creative Commons Attribution 4.0 International (CC BY)
Cite as:
Ostermann, Emily, Chan, Chun Lam Clement, Bendesky, Justin, Votava, Jacob, Reed, Eva Susan Manary, Maguire, Shawn, Webb, Michael, Lee, Stephanie, Kahr, Bart, & Davidson, Emily. (2026). Research data supporting "Hierarchical chiral self-assembly of nanocylinders composed of sequence-defined mesogenic dimers" [Data set]. Version 1. Princeton University. https://doi.org/10.34770/j3cz-3j92
@electronic{ostermann_emily_2026,
  author      = {Ostermann, Emily and
                Chan, Chun Lam Clement and
                Bendesky, Justin and
                Votava, Jacob and
                Reed, Eva Susan Manary and
                Maguire, Shawn and
                Webb, Michael and
                Lee, Stephanie and
                Kahr, Bart and
                Davidson, Emily},
  title       = {{Research data supporting "Hierarchical c
                hiral self-assembly of nanocylinders com
                posed of sequence-defined mesogenic dime
                rs"}},
  version     = 1,
  publisher   = {{Princeton University}},
  year        = 2026,
  url         = {https://doi.org/10.34770/j3cz-3j92}
}
Description:

Data and associated code from a study of how sequence dictates the chiral hierarchical assembly of nanocylinders formed by mesogenic dimers, including chemical characterization of the dimers and their precursors, quantum chemistry calculations and conformational analysis, measurements of their phase transitions, and imaging and analysis of their optical textures and microstructural arrangements.

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